阿尔伯特·爱因斯坦在1905年预测到了这一点,当时他在狭义相对论中引入了相对时间的概念。
Albert Einstein predicted this in 1905, when he introduced the concept of relative time as part of his special theory of relativity.
这似乎违背了爱因斯坦的狭义相对论。
That seemed to violate Einstein's theory of special relativity.
狭义相对论同物理极限相关。
物理学家不得不修改狭义相对论了吗?
Will Physicists Have to Rewrite The Special Theory of Relativity?
我对狭义相对论的推导与解析,和大家讨论!
I deduce and analyze to the special theory of Relativity and discuss with everyone!
根据爱因斯坦的狭义相对论,这当然是不可能的。
According to Albert Einstein's special theory of relativity, this is impossible.
狭义相对论;光速;爱因斯坦;运动物体;观测。
Special relativity; Light speed; Einstein; Moving object; Observation.
我们能否绕过爱因斯坦狭义相对论的理论使得移动速度超越光速?
Can we skirt Einstein's theory of special relativity and travel faster than a beam of light?
麦克斯韦方程组用矢量的形式重新表示,并利用狭义相对论你的对称性。
Slide-shows original equations, then equations re-written as vector analysis, then using the symmetry of special relativity.
接着爱因斯坦提出了狭义相对论—一种更简明的公式,它更体现了对称性。
Then Einstein, with his special theory of relativity, looked at a whole set of symmetries of Maxwell's equations, which are called special relativity.
根据狭义相对论,如果有什么东西比光速旅行得更快,它就会把时间向后推移。
Under special relativity, if something travels faster than the speed of light, it goes backwards in time.
首先发布的是狭义相对论,它的基础是对于任何一个人来说,光速是恒定不变的。
Special relativity came first and is based on the speed of light being constant for everyone.
很少有人知道爱因斯坦著名的狭义相对论是受到他16岁时一个思想实验的启发。
It's a little known fact that Albert Einstein's famous work on special relativity was spurred by a thought experiment he conducted when he was only 16 years old.
自从爱因斯坦提出狭义相对论以来,这个理论和其把特殊地位赋给了光速,已经铁证如山。
Since Einstein introduced special relativity, the theory and the special status it gives to the speed of light have appeared iron-clad.
此外,简要介绍了相对论动力学及其成就,这些成就也是对狭义相对论的检验。
Furthermore, the relativistic dynamics and its achievements are introduced, which are also tests of special relativity.
但也不会无聊到整天研究哲学讨论狭义相对论或人类能否移居火星而过分担忧。
But it will not be bored to the study of philosophical discussion of the day special theory of relativity or the human ability to settle on Mars and be too worried.
这在理论上是可行的,应为按照狭义相对论,旅行者在接近光速时,时间会变慢,距离也会缩短。
That's doable in theory, because special relativity states that time slows down and distances shrink for travelers approaching light speed.
其结论支持狭义相对论的基本原理,并且在低速近似下,自然回归到经典物理的公式。
The conclusion supports the basic principle of the special theory of relativity, and regresses to the formula of classical theory naturally in low speed approximation.
它首次被麦斯威尔后被爱因斯坦在狭义相对论中描述。现代物理学基本上依赖光速不被超越这一假设。
Outlined first by James Clerk Maxwell and then by Albert Einstein in his theory of special relativity, much of modern physics relies on the idea that nothing can travel faster than light.
尽管有人猜测她可能对狭义相对论有未被承认的贡献,她本人则从来没有做过这样的声明。
Despite speculation about her possible unacknowledged contributions to special relativity, she herself never made such claims.
爱因斯坦曾经幻想在宇宙中乘着一道光线飞驰,这个思想实验为他的狭义相对论奠定了基础。
Albert Einstein once imagined riding on a light beam, and his thought experiment led him to the theory of special relativity.
爱因斯坦曾经理想在宇宙中乘着一道光芒飞奔,这个头脑实行为他的狭义相对论奠基了底子。
Albert Einstein once imagined riding on a light beam, and his thought experiment led him to the theory of special relativity.
1905年,爱因斯坦研究狭义相对论时所用的唯一一部计算机,就是装在他脑袋里的那部。
THE ONLY COMPUTER that Einstein used to work out his special theory of relativity in 1905 was the one inside his skull.
EPR实验迫使我们去修改物理学的基础,即建立一个能统一狭义相对论和量子力学的理论;
EPR experiments require us to revise the foundation of physics, i. e. to establish a new theory to reconcile SR and QM.
但迄今为止,我们谈论的一直是狭义相对论,这种理论适用于在速度不变的情况下移动的物体。
So far we've been talking about special relativity, which applies to objects moving at constant speed.
在大多数介绍狭义相对论的文章中,导出洛仑兹变换公式的依据都是相对性原理和光速不变原理。
In this paper, authors present a derivation of the Lorents transformation by invoking the principle of relativity alone, without the principle of invariance of light speed.
本文首先对加速度和力进行了狭义相对论变换,然后研究了加速度和力在不同惯性坐标系中的性质。
We, in this paper, first of all, transformed acceleration and force of special relativity, then further studied acceleration and force property under different inertial ordinate system.
本文首先对加速度和力进行了狭义相对论变换,然后研究了加速度和力在不同惯性坐标系中的性质。
We, in this paper, first of all, transformed acceleration and force of special relativity, then further studied acceleration and force property under different inertial ordinate system.
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